Designed for use with Ti:Sapphire Lasers
Conoptics has released the Model 201 Laser Attenuator / Power Splitter that permits the end user to split the laser beam exiting the Ti:Sapphire laser into (2) distinct beams and control the power for each instance.

Conoptics’ new “Beam Block” assembly allows an integrated solution that terminates the rejected component of the polarizer. This innovative design eliminates the need for any external beam block, and provides a safer setup design.

Input Polarizer is used to improve the purity of the laser beam entering the pockel-cell. The performance of our modulators in particular the extinction ratio and transmission, are dependent on proper alignment of the laser beam and its polarization.

Conoptics’ series of electro-optic deflectors are the most efficient mechanisms for changing the angle of a laser beam. Conoptics can scan a laser beam over a range of angles, or control the output angle of a laser beam with great accuracy. We employ a quadrapole electric field in an ...

Conoptics is pleased to announce a new large aperture free-space optical isolators designed for use with Nd:YAG lasers (1064 nm). Optical isolators, also known as Faraday isolators, are magneto-optic devices that preferentially transmit light along a single direction, shielding upstream optics from back reflections. Back reflections can create a ...

Optical Isolator with input and output polarizer’s pre-aligned to the rotator glass.
In this configuration the “input end” is the end with the tuning ring.
The input polarizer is aligned for vertical input polarization and the output polarizer is 45 degrees to the input.

Optical Isolator with input and output polarizer's pre-aligned to the rotator glass.
In this configuration the "input end" is the end with the tuning ring.
The input polarizer is aligned for vertical input polarization and the output polarizer is 45 degrees to the input.